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Full-Text Articles in Neurosciences
Potential Treatments For Malformation Associated Epilepsy, Olivia M. Bowles
Potential Treatments For Malformation Associated Epilepsy, Olivia M. Bowles
Theses and Dissertations
Epilepsy has been previously attributed to either increased excitation or decreased inhibition. With this closed frame of mind, modern medicine has been unable to develop a permanent treatment against the mechanisms of epilepsy. In order to treat patients with intractable seizures, especially those caused by developmental malformations, it is essential to understand the entirety of mechanisms that could possibly play a role in the abnormal cortical function. One such developmental malformation is known as polymicrogyria. Epileptogenesis occurs in an area laterally adjacent to this malformation known as the paramicrogyral region (PMR). Past studies have narrowed down the potential cause of …
Age Dependent Spatial Characteristics Of Epileptiform Activity In Malformed Cortex, L. Andrew Bell
Age Dependent Spatial Characteristics Of Epileptiform Activity In Malformed Cortex, L. Andrew Bell
Theses and Dissertations
Developmental cortical malformations are a major cause of intractable seizures. Determining the location and timing of susceptibility for epileptiform activity is critical to identifying what mechanisms contribute to epileptogenesis in any model. Using the freeze lesion rat model of polymicrogyria, we have identified, in lesioned cortex, these two aspects of epileptogenesis. Previous studies have demonstrated that epileptiform activity cannot be evoked prior to postnatal day (P) 12, but the malformed cortex is more susceptible to seizures as early as P10. An increase in excitatory afferents to the epileptogenic zone occurs before the onset of network epileptiform activity. Whether or not …